The　laser　cladding　technique　is　adopted　for　the　fabrication　of　2205　dual-phasc　stainless　steel/TiC　composite　coating　on　the　16Mn　steel　surfacc.　The　effcct　of　TiC　contcnt　on　the　microstructurc,　microhardncss　and　frictional　wear　properties　of　cladding　layer　is　investigated　and　the　relationship　between　the　melting　and　precipitation　behaviors　of　TiC　in　the　cladding　layer　and　the　properties　of　cladding　layer　is　also　discusscd.　The　results　show　that　the　dilution　rate　of　cladding　layer　increases　gradually　with　the　increase　of　TiC　contcnt.　Moreover,　the　TiC　particles　melt　and　prccipitatc　during　the　laser　cladding　proccss.　The　microhardncss　of　cladding　layer　increases　gradually　as　the　TiC　contcnt　increases,　and　the　highest　microhardncss　of　cladding　layer　is　up　to　612　HV　when　the　TiC　mass　fraction　is　15%.　Simultaneously,　the　wear　weight　loss　of　cladding　layer　is　the　lowest.　©　2018　Universitat　zu　Koln.　All　Rights　Reserved.